Knowit
8a91ce43f4
Phase 1 emit的 .kicad_sch 里组件位置 + 属性都对,但 lib_symbols 是空
stub —— KiCad 渲染时每个组件显示成红色 "?"。Phase 2 把 SYMBOL 文档
里的 PART + RECT/POLY/CIRCLE/TEXT/PIN primitives 翻成 KiCad lib symbol
块,填到 lib_symbols 里,让 KiCad 显示真正的原理图符号。
新增 tools/epro2/kicad/sym_writer.py:
write_lib_symbol(symbol_doc) → S-expr list 形如:
(symbol "facere:<partId>"
(pin_numbers (hide no))
(pin_names (offset 1.016))
(in_bom yes) (on_board yes)
(property "Reference" "U" ...)
(property "Value" "<title>" ...)
(property "Footprint" "" hide)
(property "Datasheet" "" hide)
(symbol "<partId>_1_1"
(rectangle ...) ← from RECT.dotX1/Y1/dotX2/Y2
(polyline (pts ...)) ← from POLY.points + closed → fill
(circle ...) ← from CIRCLE.center/radius
(text "..." ...) ← from TEXT.value/x/y/rotation
(pin <type> line (at ...) (length ...) (name ...) (number ...))
← from PIN + sibling ATTR ops
))
PIN 名字/编号/电气类型解析(这是关键数据探测点):
EPRO2 PIN 不直接带 number/name/type 字段;这些信息存为独立 ATTR 操作
(parentId=<pin_id>, key="Pin Name"/"Pin Number"/"Pin Type")
Pin Type 取值映射:IN→input, OUT→output, BIDIR→bidirectional,
POWER_IN→power_in, POWER_OUT→power_out, NC→no_connect, ...
默认 passive(保守)
sch_writer 集成(lib_symbols 自动填):
write_sch_page(doc, project_relations=pr) — 增 pr 可选参数
内部 _build_lib_symbols(): 收集本 sheet 用到的 partIds → 通过
ProjectRelations.parts_by_id 解析到 SYMBOL 文档 → write_lib_symbol →
组装 (lib_symbols ...) 块;同 partId 多 SYMBOL 候选取第一个,去重
WriteStats 增 lib_symbols_embedded / lib_symbols_missing
CLI 加 --no-lib-symbols 用于回到 Phase-1 行为(占位符调试用)。
ESP-VoCat 重导出验证:9/9 SCH_PAGE 全部 0 lib_miss
P1_45092758.kicad_sch wires=187 symbols=138 lib_emb=29
codec_0b0163fa.kicad_sch wires=190 symbols=112 lib_emb=20
Interface_b336a7c7.kicad_sch symbols=95 lib_emb=13
...
P1_408c9f4f.kicad_sch wires= 6 symbols= 10 lib_emb= 3
测试:6 个新单测覆盖 outer wrapper / pin ATTR pull / 多形状 primitives /
sch_writer 集成路径 / 缺失 lib 计数 / no-pr 回退到 Phase 1。
合计 **39/39 通过**(parser 6 + relations 9 + project_relations 6 +
sexpr 6 + sch_writer 6 + sym_writer 6)。
下一步 Phase 3:footprint library + .kicad_pcb 导出。
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
244 lines
8.2 KiB
Python
244 lines
8.2 KiB
Python
"""Convert one EPRO2 SCH_PAGE Document → a KiCad ``.kicad_sch`` S-expr.
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Phase-1 scope: paper + wires + junctions + symbol placements (no symbol body
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bundled in lib_symbols). KiCad will render the resulting .kicad_sch with
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visible wires/junctions but the symbol instances will appear as red question
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marks until lib_symbols is populated (next phase).
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Coordinate system:
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- EPRO2 schematic uses **mil** as its internal unit.
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- KiCad uses **mm**, with origin top-left, +Y down.
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- Y-axis already aligned (both Y-down), so we just apply ``MIL_TO_MM``.
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- We additionally translate so that the schematic's own bounding box has
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a small margin from page origin — keeps everything visible on A4.
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"""
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from __future__ import annotations
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import math
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import uuid as _uuid
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from dataclasses import dataclass
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from ..project_relations import ProjectRelations
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from ..relations import Relations
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from ..replay import Document
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from .sexpr import Sym, to_sexpr
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MIL_TO_MM = 0.0254
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# KiCad sch S-expr metadata that doesn't depend on content.
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KICAD_SCH_VERSION = 20231120
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KICAD_GENERATOR = "facere-epro2"
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# Default A4 in mm (KiCad uses these by default for "A4").
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PAPER_A4_MM_W = 297.0
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PAPER_A4_MM_H = 210.0
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@dataclass
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class WriteStats:
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wires: int = 0
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junctions: int = 0
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symbol_placements: int = 0
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text: int = 0
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skipped: int = 0
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lib_symbols_embedded: int = 0
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lib_symbols_missing: int = 0
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def _new_uuid() -> str:
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return str(_uuid.uuid4())
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def _mil(v) -> float:
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"""Coerce an EPRO2 mil value to mm. None / non-numeric → 0.0."""
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if v is None:
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return 0.0
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try:
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return float(v) * MIL_TO_MM
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except (TypeError, ValueError):
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return 0.0
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def _stroke(width: float = 0.0, kind: str = "default") -> list:
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return [Sym("stroke"), [Sym("width"), width], [Sym("type"), Sym(kind)]]
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def write_sch_page(
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doc: Document,
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*,
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title: str | None = None,
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sheet_origin_mm: tuple[float, float] = (25.4, 25.4),
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project_relations: ProjectRelations | None = None,
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) -> str:
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"""Render a single SCH_PAGE Document as kicad_sch text.
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``sheet_origin_mm`` is added to every coordinate so the schematic doesn't
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sit at (0,0) (KiCad's title block lives there). Default 1 inch margin.
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When ``project_relations`` is given, the ``lib_symbols`` block is
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populated by resolving each placement's ``partId`` to the SYMBOL doc(s)
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hosting that PART; the body of the first matching SYMBOL is rendered via
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:func:`sym_writer.write_lib_symbol`. If a partId can't be resolved, we
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still emit the placement (KiCad shows a red ``?``).
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"""
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if doc.doc_type != "SCH_PAGE":
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raise ValueError(f"expected SCH_PAGE doc, got {doc.doc_type!r}")
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rel = Relations.build(doc)
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stats = WriteStats()
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ox, oy = sheet_origin_mm
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elements: list = []
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# 1. Wires from LINE primitives. Each LINE contributes one (wire ...).
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for oid, obj in doc.objects.items():
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if obj.get("_type") != "LINE":
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continue
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x1 = ox + _mil(obj.get("startX"))
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y1 = oy + _mil(obj.get("startY"))
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x2 = ox + _mil(obj.get("endX"))
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y2 = oy + _mil(obj.get("endY"))
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# KiCad rejects degenerate zero-length wires
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if math.isclose(x1, x2) and math.isclose(y1, y2):
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stats.skipped += 1
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continue
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elements.append([
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Sym("wire"),
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[Sym("pts"), [Sym("xy"), x1, y1], [Sym("xy"), x2, y2]],
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_stroke(0.0),
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[Sym("uuid"), _new_uuid()],
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])
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stats.wires += 1
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# 2. Symbol placements from COMPONENT ops. Body deferred to Phase 2 (lib_symbols).
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# For now we emit (symbol ...) entries that reference a placeholder lib_id.
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# KiCad will draw a red ? but the position + properties are correct.
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for cid, comp in rel.components.items():
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x = ox + _mil(comp.get("x"))
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y = oy + _mil(comp.get("y"))
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rot = float(comp.get("rotation") or 0)
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part_id = str(comp.get("partId") or "Unknown")
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attrs = rel.attrs_dict(cid)
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designator = str(attrs.get("Designator") or "")
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value = str(attrs.get("Value") or "")
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sym_block: list = [
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Sym("symbol"),
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[Sym("lib_id"), f"facere:{part_id}"],
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[Sym("at"), x, y, rot],
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[Sym("unit"), 1],
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[Sym("exclude_from_sim"), Sym("no")],
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[Sym("in_bom"), Sym("yes")],
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[Sym("on_board"), Sym("yes")],
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[Sym("dnp"), Sym("no")],
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[Sym("uuid"), _new_uuid()],
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[Sym("property"), "Reference", designator,
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[Sym("at"), x, y - 5, 0],
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[Sym("effects"), [Sym("font"), [Sym("size"), 1.27, 1.27]]]],
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[Sym("property"), "Value", value,
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[Sym("at"), x, y + 5, 0],
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[Sym("effects"), [Sym("font"), [Sym("size"), 1.27, 1.27]]]],
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[Sym("property"), "Footprint", "",
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[Sym("at"), x, y, 0],
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[Sym("effects"), [Sym("font"), [Sym("size"), 1.27, 1.27]],
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[Sym("hide"), Sym("yes")]]],
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[Sym("property"), "Datasheet", "",
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[Sym("at"), x, y, 0],
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[Sym("effects"), [Sym("font"), [Sym("size"), 1.27, 1.27]],
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[Sym("hide"), Sym("yes")]]],
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]
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elements.append(sym_block)
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stats.symbol_placements += 1
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# 3. Text labels from TEXT objects (best-effort — only those with a non-empty value).
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for oid, obj in doc.objects.items():
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if obj.get("_type") != "TEXT":
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continue
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val = str(obj.get("value") or "").strip()
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if not val:
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continue
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x = ox + _mil(obj.get("x"))
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y = oy + _mil(obj.get("y"))
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rot = float(obj.get("rotation") or 0)
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elements.append([
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Sym("text"),
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val,
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[Sym("at"), x, y, rot],
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[Sym("effects"), [Sym("font"), [Sym("size"), 1.27, 1.27]]],
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[Sym("uuid"), _new_uuid()],
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])
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stats.text += 1
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sch_title = title or (
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(doc.objects.get("META") or {}).get("title")
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or doc.doc_uuid[:12]
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)
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# Populate lib_symbols block from used partIds (Phase 2).
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lib_symbols = _build_lib_symbols(rel, project_relations, stats) \
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if project_relations is not None else [Sym("lib_symbols")]
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sch: list = [
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Sym("kicad_sch"),
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[Sym("version"), KICAD_SCH_VERSION],
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[Sym("generator"), KICAD_GENERATOR],
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[Sym("uuid"), _new_uuid()],
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[Sym("paper"), "A4"],
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[Sym("title_block"),
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[Sym("title"), sch_title],
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[Sym("comment"), 1, f"epro2 doc_uuid: {doc.doc_uuid}"],
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[Sym("comment"), 2, f"editor: {doc.head.get('editVersion','')}"]],
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lib_symbols,
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*elements,
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[Sym("sheet_instances"),
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[Sym("path"), "/", [Sym("page"), "1"]]],
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]
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# Stash stats on the function for tests / CLI to inspect.
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write_sch_page.last_stats = stats # type: ignore[attr-defined]
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return to_sexpr(sch, pretty=True)
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def _build_lib_symbols(
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sch_rel: Relations,
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pr: ProjectRelations,
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stats: WriteStats,
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) -> list:
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"""Resolve every COMPONENT.partId on this sheet to a SYMBOL doc and
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embed its body in the ``(lib_symbols ...)`` block.
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Returns the full ``[Sym("lib_symbols"), <symbol entry>, ...]`` list.
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"""
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from .sym_writer import write_lib_symbol # local to avoid cycle
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used_part_ids: set[str] = set()
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for cid, comp in sch_rel.components.items():
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pid = comp.get("partId")
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if pid:
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used_part_ids.add(str(pid))
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block: list = [Sym("lib_symbols")]
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seen_emitted: set[str] = set()
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for pid in sorted(used_part_ids):
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sym_docs = pr.parts_by_id.get(pid, [])
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if not sym_docs:
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stats.lib_symbols_missing += 1
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continue
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# Use first SYMBOL doc. Skip if same partId already emitted (dedupe).
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if pid in seen_emitted:
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continue
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sym_doc = pr.project.documents.get(sym_docs[0])
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if not sym_doc:
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stats.lib_symbols_missing += 1
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continue
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entry = write_lib_symbol(sym_doc)
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if entry is None:
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stats.lib_symbols_missing += 1
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continue
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block.append(entry)
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seen_emitted.add(pid)
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stats.lib_symbols_embedded += 1
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return block
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